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E-raamat: Numerical Models for Submerged Breakwaters: Coastal Hydrodynamics and Morphodynamics

(Faculty of Engineering and Technology, University of Hormozgan, Bandar Abbas, Hormozgan, Iran)
  • Formaat: PDF+DRM
  • Ilmumisaeg: 24-Nov-2015
  • Kirjastus: Butterworth-Heinemann Inc
  • Keel: eng
  • ISBN-13: 9780128026656
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Numerical Models for Submerged Breakwaters: Coastal Hydrodynamics and MorphodynamicsSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 24-Nov-2015
  • Kirjastus: Butterworth-Heinemann Inc
  • Keel: eng
  • ISBN-13: 9780128026656
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Numerical Models for Submerged Breakwaters: Coastal Hydrodynamics and Morphodynamics discusses the practice of submerged breakwaters, an increasingly popular tool used as a coastal defense system because of their amenity and aesthetics as compared to common emerged beach protection measures.

The book is the perfect guide for experienced professionals who wish to keep abreast of the latest best practices or those who are entering the field and need a reference, explaining new and traditional numerical methodologies for designing submerged breakwaters and measuring their performance. In addition, the book provides case studies, examples, and practical methods for data selection and pre-processing, model setup, calibration, and analysis.

  • Case studies and worked-out examples illustrate different concepts and methods
  • Offers practical methods for Data Selection and Pre-Processing
  • Provides simplified prediction tools for practical applications

Muu info

Users will find this book to be a comprehensive guide that will help them gain valuable insights into new and traditional numerical methodologies for designing submerged breakwaters and measuring their performance
1 Introduction
1(16)
1.1 Coastal Erosion and Defense
1(1)
1.2 Submerged Breakwaters for Coast Protection
2(2)
1.3 Coastal Processes and Submerged Breakwaters
4(2)
1.4 Numerical Modeling for Submerged Breakwaters
6(1)
1.5 Purposes and Significances
7(3)
1.6 Main Objectives of Book
10(1)
1.7 Layout of Book
11(6)
References
13(4)
2 Fundamental Concepts
17(12)
2.1 Introduction
17(1)
2.2 Physical Parameters Related to Submerged Breakwaters
17(2)
2.3 Physical Processes in the Presence of Submerged Breakwaters
19(7)
2.4 Performance of the Submerged Breakwaters
26(3)
References
26(3)
3 Literature Review and Background
29(30)
References
50(9)
4 Theories and Methodologies
59(18)
4.1 Introduction
59(2)
4.2 Traditional Models for Water Waves
61(4)
4.3 New Approaches
65(12)
References
73(4)
5 Mathematical Modeling and Algorithm Development
77(16)
5.1 Navier-Stokes Equations
77(3)
5.2 The Turbulent Model
80(2)
5.3 Initial and Boundary Conditions
82(1)
5.4 Shallow Waters
83(1)
5.5 The Extended Mild-Slope Equation
83(1)
5.6 Boussinesq Equations
84(1)
5.7 Smoothed Particles Hydrodynamics
85(1)
5.8 Artificial Neural Networks
86(7)
References
90(3)
6 Numerical Methods and Procedures
93(16)
6.1 Introduction
93(1)
6.2 Finite Difference Method
94(7)
6.3 Finite Volume Method
101(2)
6.4 Artificial Neural Networks Modeling
103(6)
References
108(1)
7 Numerical Modeling and Simulation
109(18)
7.1 Modeling the Shallow Water Equations
109(2)
7.2 Modeling with Neural Networks
111(16)
References
125(2)
8 Design Model Development and Analysis
127(18)
8.1 Experimental Data
127(5)
8.2 Analysis Approaches for ANN Model Results
132(8)
8.3 Development of Shallow Water Equations Model
140(2)
8.4 Comparison of Models
142(3)
References
143(2)
9 Existing Simulation and Design Tools
145(22)
9.1 Numerical Models
145(1)
9.2 SPHysics
146(1)
9.3 Telemac-Mascaret
147(2)
9.4 REF-DIF
149(1)
9.5 COBRAS
149(1)
9.6 MIKE 21
149(4)
9.7 Delft3D
153(2)
9.8 IH2VOF
155(1)
9.9 IHFOAM
156(1)
9.10 GENESIS
157(1)
9.11 STWAVE
157(1)
9.12 ComFLOW
158(1)
9.13 NN_OVERTOPPING
158(1)
9.14 COULWAVE
158(4)
9.15 ADCIRC
162(1)
9.16 Previous Numerical Research
162(5)
References
162(5)
10 Design Algorithms and Guidelines
167(66)
10.1 Partial Differential Equations
167(4)
10.2 Finite Difference Method
171(21)
10.3 Solution of Discretized Equations
192(30)
10.4 Finite Volume Method
222(5)
10.5 Solution of the Navier-stokes Equations
227(6)
References
231(2)
11 Case Studies and Worked-Out Examples
233(112)
11.1 Introduction
233(1)
11.2 Worked-Out Examples
233(9)
11.3 Data Processing
242(10)
11.4 Analysis and Discussion of Results
252(27)
11.5 Analysis and Discussion of Shallow Waters Equations Model Results
279(11)
11.6 Comparison of Models
290(18)
11.7 A Simplified 3D Analysis Tool and Preliminary Prediction Scheme for Practical Applications
308(30)
11.8 Summary
338(7)
References
342(3)
Index 345
Amir Sharif Ahmadian has over 10 years of experience in creating and using application of different numerical methods in coastal and ocean engineering. Along with R.R. Simons, he is the co-author of A 3D numerical model of nearshore wave field behind submerged breakwaters”, published in Volume 83 of Coastal Engineering (January 2014).
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